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@article{1216445, author = {Pilný, Radomír and Lubal, Přemysl and Elding, Lars Ivar}, article_number = {32}, doi = {http://dx.doi.org/10.1039/c4dt01062k}, keywords = {palladium(II) ion; oxalate; metal complex formation; thermodynamics}, language = {eng}, issn = {1477-9226}, journal = {Dalton Transactions}, title = {Thermodynamics for complex formation between palladium(II) and oxalate}, url = {http://pubs.rsc.org/en/content/articlelanding/2014/dt/c4dt01062k}, volume = {43}, year = {2014} }
TY - JOUR ID - 1216445 AU - Pilný, Radomír - Lubal, Přemysl - Elding, Lars Ivar PY - 2014 TI - Thermodynamics for complex formation between palladium(II) and oxalate JF - Dalton Transactions VL - 43 IS - 32 SP - 12243-12250 EP - 12243-12250 PB - Royal Society of Chemistry SN - 14779226 KW - palladium(II) ion KW - oxalate KW - metal complex formation KW - thermodynamics UR - http://pubs.rsc.org/en/content/articlelanding/2014/dt/c4dt01062k N2 - Complex formation between [Pd(H2O)4]2+ and oxalate (ox = C2O42-) has been studied spectrophoto-metrically in aqueous solution at variable temperature, ionic strength and pH. Thermodynamic parameters at 298.2 K and 1.00 M HClO4 ionic medium for the reaction [Pd(H2O)4]2+ + H2ox <-> [Pd(H2O)2(ox)] + H3O+ with equilibrium constant K1,H (in mol.dm-3) are log10K1,H = 3.38 ± 0.08, delta H0 = -33 +/- 3 kJ.mol-1, and deltaS0 = -48 +/- 11 J.K-1.mol-1, as determined from spectrophotometric equilibrium titrations at 15.0, 20.0, 25.0 and 31.0 degrees of Celsius. Thermodynamic overall stability constants Beta_n_0 (in (mol.dm-3)n) for [Pd(H2O)2(ox)] and [Pd(ox)2]2- at zero ionic strength and 298.2 K, defined as the equilibrium constants for the reaction Pd2+ + n ox2- <-> [Pd(ox)n]2-2n (water molecules omitted) are log10Beta_1 = 9.04 ± 0.06 and log10Beta_ = 13.1 +/- 0.3, respectively, calculated by use of Specific Ion Interaction Theory from spectrophotometric titrations with initial hydrogen ion concentrations of 1.00, 0.100 and 0.0100 mol.dm-3 and ionic strengths of 1.00, 2.00 or 3.00 mol.dm-3. The palladium complexes are significantly more stable than oxalato complexes of other divalent metals with higher co-ordination numbers as a result of the chelate effect. ER -
PILNÝ, Radomír, Přemysl LUBAL a Lars Ivar ELDING. Thermodynamics for complex formation between palladium(II) and oxalate. \textit{Dalton Transactions}. Royal Society of Chemistry, 2014, roč.~43, č.~32, s.~12243-12250. ISSN~1477-9226. Dostupné z: https://dx.doi.org/10.1039/c4dt01062k.
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